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Fein Optic R40pol Polarizing Microscope Manual

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R40POL Microscope User’s Manual for R40POL and R40POL-RT Polarizing Microscopes [email protected] Microscope Components: Trinocular Port Beam Splitter Eyepieces Daylight Balancing Filter 12v 50w Halogen Reflected Illuminator Analyzer Ground Glass Filter Bertrand Lens Adjustment Switch from Reflected to Transmitted Illumination Hex Wrench Polarizer Field Diaphragm Adjustment Aperture Diaphragm Adjustment Rotatable Stage Stage Lock Screw Condenser Centering Screws Condenser Lock Screw Fine Focus Field Diaphragm Adjustment Ring Coarse Focus 12v 50w Halogen Transmitted Light Focus Tension Adjustment R40POL-RT Reflected & Transmitted Light PolarizingMicroscope Page 1 [email protected] Microscope Components: Bertrand Lens Centering Screw Compensating Plate Nosepiece Coarse Focus Objective Coarse Focus Limit Knob Rotatable Stage Condenser with Polarizer Fine Focus Field Diaphragm Light Rheostat R40POL Transmitted Light Polarizing Microscope Page 2 [email protected] Microscope Components: Bertrand Lens Centering Screw Bertrand Lens Adjustment Compensating Plate Centerable Analyzer Condenser Centering Screws Condenser Height Adjustment Knob Centerable Analyzer Bertrand Lens Adjustment Compensating Plate Filter Slot Lever to Switch from Reflected to Transmitted Light Polarizer Page 3 [email protected] Before Use: Do not shake or drop the microscope. Do not not expose the microscope to direct sun, high temperatures, dust, or damp environments. Use a flat work surface. Indoor operating temp 41°~104°F (5°~40°C), max relative humidity of 80%. 1 When moving the microscope use both hands, holding the frame (1) and the base (2) as shown at right. 2 When using the microscope make sure the light source has enough room around it for heat to dissipate. Set the power switch to off “O” before replacing a bulb or fuse, and wait until the lamp is cool. The power switch (3) is located on the back of the base of the microscope. Microscope uses a 12v, 50w Halogen Bulb, Part # R40POL-001. 3 Voltage range of 100~240V is supported. Additional transformer is not necessary. Use only an outlet with voltage in this range and use the power cord supplied with the microscope. Page 4 [email protected] Maintenance: Wipe lenses gently with a soft tissue. Carefully remove excess oil from the 100x immersion oil lens. Wipe off fingerprints from lens surfaces with lens paper using a small amount of microscope cleaning solution or a 3:7 mixture of alcohol and ether or dimethylbenzene. (Alcohol and ether are flammable, do not place these chemicals near fire and clean in a ventilated area.) When cleaning other surfaces of the microscope use water only. A basic detergent can be used to clean the surface if necessary, but ensure that all the detergent is removed from the frame with a clean, damp cloth prior to drying the surface. If the microscope becomes wet during use, power off the microscope and dry the microscope thoroughly. Do not disassemble the microscope. After use, cover the microscope with a dust cover and power off the light. Objectives: R40POL Infinity Corrected Objectives are Strain Free, available for Transmitted or Reflected Light. Recommended coverslip thickness is 0.17mm. Objective Type Part # / Magnification Numerical Aperture Strain Free Polarizing for Transmitted Light POL-PL4 / 4x POL-PL10 / 10x POL-PL20 / 20x POL-PL40 / 40x POL-PL60/ 60x 0.10 0.25 0.40 0.60 0.85 20.8mm 5.3mm 1.6mm 0.36mm 0.47mm POL-LWD5 / 5x 0.15 10.8mm POL-LWD10 / 10x 0.30 POL-LWD20 / 20x 0.45 10.0mm 4.0mm POL-LWD50 / 50x 0.55 7.9mm Strain Free Long Working Distance for Reflected Light Page 5 Working Distance [email protected] Microscope Assembly: Follow the numbered diagram below when assembling the microscope. If assembling the R40POL (reflected light only) microscope, omit steps 1 and 2 shown at bottom right for transmitted illuminator. 1 Install 12v / 50w Halogen Bulb 9 8 2 7 Screw Objective Lenses Into Nosepiece 5 Plug in Power Cord & Plug In Transmitted Illuminator Cord 6 10 4 2 1 Install 12v / 50w Halogen Bulb Insert LED transmitted light housing 3 Insert Condenser Page 6 [email protected] Microscope Assembly: R40POL-RT Only: Install the bulb and connect the reflected LED light housing. Hold the bulb (1) with a clean glove or lens tissue and insert the pins (2) into the receptacles (3). Ensure that the bulb is vertical. Bulb: R40POL-001 12v 50w quartz halogen bulb. Bulb Installation for Reflected Illumination: Loosen the set screw (1) with the hex wrench and remove the light housing cover. Open the bulb clasp (2), hold the bulb (3) with a glove or tissue and insert the pins (4) into the receptacles (5). Release the bulb clasp (2) so it will hold the bulb in place. Before replacing bulb make sure the microscope is unplugged . Do not touch the bulb with fingers. More photos for bulb replacement can be found on page 18. Bulb: R40POL-001 12v 50w quartz halogen bulb. Transmitted Light Housing Assembly: Match the guide pins (1) of the bulb with the base guide receptacles (2) on the microscope body. Push the light housing into the microscope body. R40POL-RT Only: Reflected Light Housing Assembly: Loosen the set screw (1) on the reflected illuminator. Push the light housing group base (2) into the reflected illuminator light source base (3). Retighten the set screw (1). Page 7 [email protected] Microscope Assembly: Assemble the Condenser (with polarizer) for transmitted illumination. Rotate the coarse focusing knob (1) to raise the stage to its highest position. Rotate the condenser height knob (2) to move the condenser holder to its lowest position. Loosen the condenser set screw (3). Swing out the front lens of the condenser with the scale facing forward. Align the set screw of the codenser with the groove in the condenser holder and push the condenser in all the way. Tighten the condenser set screw and raise the condenser back up to its highest position. Assemble the stage clips: Plug the two stage clip pins (1) into the holes (2) on the rotatable stage. When using the mechanical stage remove the stage clips and attach the mechanical stage in their place on the stage. When using the mechanical stage on the X-Axis adjust the handle to the “60” reticle (move it to “0”) to avoid damaging objective lenses. Assemble the Objectives: Rotate the coarse focusing knob to lower the stage. Screw the 10x objective into the hole of the nosepiece with the red mark. Continue installing the objectives into the nosepiece from the lowest magnification to the highest in a clockwise direction. R40POL-RT Only: Assemble the reflected illuminator. Loosen the set screw (1) on the microscope arm. Insert the bottom of the illuminator arm into the slot on the body. Retighten the set screw (1) with the hex wrench. Page 8 [email protected] Microscope Assembly: Assemble the Middle Head: Loosen the middle head set screw (1). Fit the middle head either onto the reflected illuminator (if you have the R40POL-RT) or onto the microscope body (if you have the R40POL). Retighten the set screw (1). Assemble the Head: Loosen the head set screw (1). Insert the head onto the middle head and retighten the set screw (1). Assemble the Eyepieces: Remove the cover of the eyeube (1). Insert the eyepiece (2) into the eyetube until it touches the bottom. Install the eyepiece with the crossline reticle into the right eyetube and insert the square pins of the location ring into the square groove on the eyetube. Connect the Power Cord: Make sure the power is switched to “O” (off ). Insert the connector (1) of the light source group into the power socket (2) on the microscope. (R40POL-RT Only): Insert the aviation plug (3) into the aviation socket (4) on the microscope. Insert one end (5) of the power cord into the microscope power socket (6). Insert the other end of the power cord into the power supply. Do not use strong force when plugging in connectors. Use the power cord supplied with the microsocpe. Page 9 [email protected] Microscope Assembly: Illumination: Plug in the power supply and turn the switch on to “|”. Move the analyzer out of the light path. Turn the Bertrand lens switch turntable to “0” to move the Bertrand lens out of the light path until a click is heard. For R40POL-RT (transmitted & reflected) model: For transmitted illumination, set the switch (2) to and pull out the pole (3) to direct light to transmitted rather than reflected illumination. Adjust the rheostat control (1) until the illumination is comfortable for observation. For reflected illumination, set the switch (2) to and push the pole (3) in to direct light to reflected illumination. Adjust the rheostat control (1) until the illumination is comfortable for observation. NOTE: The switch (1) is only for the the transmitted/reflected model. The light directing pole (3) shows “R” for reflected and “T” for transmitted light. For R40POL (transmitted) model: Adjust the rheostat control (1) until the illumination is comfortable. If using the trinocular port, push the beam splitter in when observing samples with both eyes. Focusing Adjustment: Place a sample on the stage and move the lowest magnification objective into the light path. Loosen the coarse adjustment limit knob (1) while observing through the right eyepiece, roatate the coarse focus knob (2) until the image appears in the field of view. Lock the coarse adjustment limit knob (1). Rotate the fine focus knob (3) to get a clear image. The upper limit knob can prevent the sample from touching the objective when using high magnification and prevent damage to the objectives. The upper limit knob does not limit the fine focusing adjustment. Adjust the Focus Tension: If the coarse focus knob is hard to turn or the stage drifts out of focus after focusing, adjust the tension adjustment ring (1). Turning the tension adjustment ring clockwise will tighten the focus and counter-clockwise will loosen the focus knob. Page 10 [email protected] Microscope Assembly: Diopter Adjustment: After the image is clear through the right eyepiece, observe the left eyepiece with the left eye. If the image is not clear enough, rotate the diopter adjustment ring until the image is clear. There are +/-5 diopters on the diopter adjustment ring, and the value aligned with the scale is your eye’s diopter setting. If multiple people are using the microscope, remember your specific diopter setting for faster transitions between users. Interpupillary Distance Indicator Diopter Indicator Interpupillary Distance Adjustment: When using both eyepieces for observation, hold the base of the eyetubes and rotate the eyepieces around the axis to adjust the interpupillary distance so that when looking through the microscope you only view one field of view. The interpupillary distance is adjustable from 52~75mm. Remember your eye’s interpupillary distance setting for faster microscope setup if sharing the microscope with multiple people. Using the Eyeshields: Fold down the eyeshields on the eyepieces if wearing glasses to prevent the glasses from touching the eyepieces or the glass of the glasses. Fold open the eyeshields so that stray light does not disturb observation. Adjust the Objective Center: All the objectives are centered at the factory. When making adjustments to the objective center, plug two 1.5mm hex wrenches into the hex bolt on the corresponding objective nosepiece circle (1). Adjust the objective center by super-imposing it with the rotary center of the rotatable stage. Adjustment Method: Find a black dot in the image of observation and move the sample in order to locate it with point “a” in the center of the crossline in the eyepiece. Rotate the stage, if the objective center does not super-impose with the stage rotary center, the dot will be away from the crossline. The center “c” is the rotary center of the stage. Rotating the stage, turn the black dot to “b” and adjust the objective in order to move the dot to the midpoint of a-b, which is the center “c”. Move the sample to turn the dot from center “c” to point “a”. Rotate the stage to see whether it is superimposed with the cross-line of the eyepiece. If not superimposed, repeat steps. Page 11 [email protected] Microscope Assembly: Centering the Condenser: Rotate the condenser height knob (1) to raise the condenser to its highest position. Rotate the spanner (2) to move the front condenser lens into the light path. NOTE: Move the front condenser lens out of the light path when using objectives higher than 20x. Rotate the 20x objective into the light path and focus. Rotate the field diaphragm adjustment ring (3) to close the field diaphragm to its smallest position. Observe the image through the eyepiece. Rotate the condenser height knob (1) to adjust the image so it is clear. Adjust the condenser center adjustment screw (4) and move the image into the center of the field of view. Open the field diaphragm gradually. If the image is in the center at all times and inscribed in the field of view, the condenser has been centered properly. When using the microscope, enlarge the field diaphragm so the image is circumscribed in the field of view. Field Diaphragm Adjustment: By limiting the diameter of light entering the condenser, the field diaphragm can strengthen image contrast. When the image is on the edge of the field of view, the objective obtains the clearest image. For Reflected Illumination (R40POL-RT): Turn the field diaphragm adjustment (1) to the lowest to minimize the field diaphragm. The image of the field diaphragm can be observed in the field of view through the eyepiece. Insert two M4 hex wrenches into the left and right field diaphragm centering bolts (2) and rotate until the image is adjusted to center. Open the field diaphragm graudally. If the image of the field diaphragm is inscribed with the field of view, then the field diaphragm is centered correctly. When using the microscope, enlarge the field diaphragm so the image is circumscribed to the field of view. For Transmitted Illumination: Rotate the field diaphragm adjustment ring beneath the condenser clockwise to enlarge the field diaphragm and counterclockwise to decrease it. Page 12 [email protected] Microscope Assembly: Aperture Diaphragm Adjustment: The aperture diaphragm decides the numerical aperture (NA) of the illumination system. If the NA of the illumination system matches the NA of the objective, the best resolution, contrast and depth of field is produced. As the contrast of microscopic samples is usually low, the best results are obtained when the aperture diaphragm is adjusted at 70-80% of the NA of the objective. When using the microscope, adjust on the basis of the best contrast. For Reflected Illumination (R40POL-RT): Changing the direction of the aperture diaphragm is the same as the field diaphragm. Adjust the size by rotating the diaphragm knob (1). Adjust the two aperture diaphragm centering screws (2) to center the aperture diaphragm. For Transmitted Illumination: Change the size of the aperture diaphragm by rotating the aperture diaphragm adjustment ring (1). Place the NA of the condenser to about 80% of the NA of the objective lens (2). Analyzer Adjustment: Insert the analyzer (1) facing up into the socket of the intermediate lens group until the analyzer is shifted into the light path. Loosen the set screw (4) and turn the analyzer turntable (2) to change the vibrated direction of the analyzer. The scale value is 2˚ and the adjustment range is 360˚. When observed orthogonally, the “0” reticle on the turntable (2) should be even with the “0” reticle on the vernier (3). The scale value of the vernier is 6’. Polarizer Adjustment: For Reflected Illumination (R40POL-RT): Insert the polarizer (5) into the slot on the reflected illumination arm. For Transmitted Illumination: Turn the polarizer adjustment ring (1) to adjust the direction of the polarizer by 360˚. When observed orthogonally, the “0” reticle on the adjustment ring should be even with the reticle on the base. Page 13 [email protected] Microscope Assembly: Compensator λ Adjustment: The compensator (1) is inserted into the slot (2) in the middle head. The surface of the compensator with the character inscribed on it (λ or λ/4) should face up. The quartz wedge can also be inserted if needed. Rotatable Stage Adjustment: The rotatable stage is a high accuracy component of the microscope and should be adjusted gently. The surface has been printed with a special graphite coating. The grid value of the scale on the stage is 1˚, with a grid value of vernier of 6’. The stage will not rotate when the lock screw is tightened. Using the Color Filter: The color filter can make the background light more suitable and strengthen image contrast. When using a filter place the rough side facing down toward the light. Replacing the Fuse: Turn the main switch to “O” off before replacing the fuse. Remove the power cord. Screw off the fuse group (1) from the fuse base (2) using a flathead screw driver. Install a new fuse and replace the fuse group. Fuse Specification: 250V, 315A Using the Bertrand Lens: Move the highest magnification objective into the light path and set the polarier and analyzer to “0”. Place a slice (such as mica) on the stage and focus. Rotate the Bertrand lens turntable (1) and set it to position “B” to move the Bertrand lens into the light path. This will make the black cross visible in the eyepiece, which is the interference pattern. Rotate the stage for observation. Use a 20x or higher objective when using the Bertrand lens. The Bertrand lens is typically used with transmitted light. Adjust the Bertrand lens centering screw (2) by turning the left and right sides at the same time to move the interference pattern to the center of the field of view. Turn the aperture diaphragm adjustment on the condenser group to enlarge the aperture diaphragm. Turn the Bertrand lens focusing screw (3) to adjust the interference pattern to its clearest. Page 14 [email protected] Microscope Assembly: Beam Splitter Adjustment: When using the trinocular head the beam splitter (1) controls the light traveling to the eyepieces and the camera. When the beam splitter is pushed in all the way all light is directed to the eyepieces. When the beam splitter is pulled out all the way 50% of the light travels to the eyepieces and 50% to the camera. Using the C-Mount Adapter: When connecting a c-mount digital camera to the microscope the c-mount adapter will connect the camera to the trinocular port. Loosen the set screw (1) on the trinocular head and remove the dust cover (2). Remove the dust cover from the c-mount adapter (3). Insert the c-mount adapter into the trinocular head of the microscope and tighten the set screw (1) on the microscope. Loosen the set screw (4) of the c-mount adapter. Remove the c-ring (5) from the c-mount adapter to connect it to the camera. Once the camera is connected to the c-ring, place it back on the c-mount adapter and tighten the set screw (4). To view an image from the camera, pull out the beam splitter (6). If the image is not in focus, adjust the focusing adjustment (7) on the c-mount adapter so it is in focus at the same time the eyepieces are in focus. Page 15 [email protected] Troubleshooting: Optical Troubleshooting Problem LED light is bright, but field of view is dark. The field of view is not darkest when the analyzer and polarizer are both set to “0”. Side of the field of view is dark or uneven. Stain or dust in the field of view. Image is not clear. One side of field of view is dark or the image moves while focusing. Eyes fatigue quickly during use or the right field of view doesn’t match with the left. Cause Solution Field diaphragm is not large enough. Open the field diaphragm. Aperture diaphragm is not large enough. Adjust the aperture diaphragm. Condenser is not in the right position. Adjust the condenser. Condenser is too low. Condenser is not centered. Beam splitter is pulled out. Adjust the condenser. Center the condenser. Push the beam splitter in. The middle head is not fully slotted in place. Adjust the locking position. Nosepiece is not in position. Click nosepiece into position. Dust or stain is on the objective or eyepiece. Clean the objective and eyepieces. Stains have accumulated on sample. Stain has accumulated on the lens. Clean sample. Clean lens surfaces. Aperture diaphragm not opened enough. Adjust aperture diaphragm. Dust has accumulated on the lenses. Condenser is too low. Clean eyepieces / objectives. Adjust condenser. Specimen is not fixed. Affix sample in mechanical stage. Nosepiece is not clicked into position. Click nosepiece into place. Condenser is not centered properly. Center the condenser. Compensator is not in correct position. Adjust the compensator. Bertrand lens is not in correct position. Adjust the Bertrand lens. Analyzer is not in the correct position. Adjust the analyzer. Interpupillary distance is not set properly. Adjust interpupillary distance. Diopter adjustment is not set properly. Adjust the diopters. Different eyepieces are being used in the left and right eyetube. Use the same eyepieces in each eyetube. Use the Fein Optic WF-PL10x/22 Eyepieces. Page 16 [email protected] Troubleshooting: Mechanical & Electrical Troubleshooting Problem Cause Solution Mechanical Troubleshooting: Unable to focus when using high magnification objective. There is cover glass on the sample. Do not use cover glass. Coarse focusing knob is too tight. Tension knob is too tight. Loosen tension knob slightly. Stage drifts or falls. Tension knob is too loose. Tighten tension knob slightly. Coarse focusing knob won’t raise higher. The random upper limit knob is locked. Loosen the random upper limit knob. Coarse focusing knob won’t lower far enough. The base of the condenser is too low. Raise the condenser. Stage is not fastened properly. Reattach the stage. Image jumps when stage is touched. Electrical Troubleshooting: Light does not work. Power is not turned on. Check power cable connection. Bulb is not installed properly. Check light connection. Bulb is burned out. Replace Bulb. Bulb burns out quickly. Incorrect bulb is being used. Field of view is not bright enough. Incorrect bulb is being used. Bulb flickers or the brightness is not stable. Replace bulb with part # R40POL-001 (transmitted) or R40POL-001 (reflected). Replace bulb with part # R40POL-001 (transmitted) or R40POL-001 (reflected). Rheostat adjustment is turned down. Adjust the rheostat control. The connector pins or the wires for the bulb are not connected properly. Check wire connections and connector pins for the bulb. The bulb needs to be replaced. Replace bulb with part # R40POL-001 (transmitted) or R40POL-001 (reflected). Page 17 [email protected] Bulb Replacement: Replacement Bulb for R40POL 12V 50W Halogen transmitted light = R40POL-001 Replacement Bulb for R40POL-RT 12V 50W Halogen reflected light = R40POL-001 Replacement Bulb for R40POL-RT 12V 50W Halogen transmitted light = R40POL-001 To replace the transmitted light, unplug the microscope and remove the light housing from the back of the microscope. Hold the 12V 50W halogen bulb (1) with a tissue or glove. Insert the pins (2) into the receptacles (3). Red arrows at right denote where the pins of the bulb are inserted. To replace the reflected light, loosen the set screw (1) with the hex wrench to remove the light housing. Depress the two metal prongs as shown at right and insert the 12V 50W halogen pins of the bulb into the slot where the red arrows are pointing. Release the metal prongs and they will hold the bulb in place. Replace the light housing and reconnect the reflected illuminator to the microscope body. Depress prongs & insert bulb pin at red arrows. Inside of light housing once cover is removed. Page 18 [email protected]